Prof. Jia-Xin Peng - Quantum Information - Best Researcher Award
NanTong University - China
Author Profile
Early Academic Pursuits
Prof. Jia-Xin Peng began his academic path in physics at Anyang Normal University, majoring in Physics with a focus on Teacher Education. During this period (2013.09 ‒ 2017.07), he established a strong foundation in classical and modern physics, excelling in core subjects such as quantum mechanics, statistical mechanics, solid-state physics, and advanced mathematics. His exceptional academic performance earned him several awards, including the First and Second Prizes in the National College Mathematics Competitions, and recognition as an Outstanding Graduate. He continued his studies at Shanghai Normal University, earning a Master’s degree in Theoretical Physics (2017.09 ‒ 2020.07), guided by Feng Xunli, a prominent figure in China’s Quantum Information community. This period deepened his knowledge in quantum optics, quantum field theory, and nonlinear optics. His academic journey culminated in a PhD in Atomic and Molecular Physics at East China Normal University (2020.09 ‒ 2024.07), under the mentorship of Prof. Zhang Keye, a nationally recognized expert and director of the Institute of Atomic and Molecular Physics.
Professional Endeavors
Throughout his doctoral and postgraduate career, Prof. Jia-Xin Peng has been actively involved in cutting-edge research projects and academic development in quantum physics. His participation in the 2020 Shanghai "Science and Technology Innovation Action Plan" Morning Star Project reflects his growing prominence in the field. As a researcher affiliated with top institutions like East China Normal University and having mentorship from influential physicists, Prof. Peng has developed significant expertise in Quantum Information, particularly in the domains of cavity optomechanics and magnetomechanics. He is also an experienced reviewer for prestigious journals such as Journal of Physics B, Journal of the Optical Society of America B, and EPJ Quantum Technology—a testament to his authority and recognition in the academic community.
Contributions and Research Focus
Prof. Jia-Xin Peng’s primary research contributions lie in the exploration of Quantum Information phenomena within open systems, specifically focusing on cavity optomechanics and magnetomechanics. His work addresses complex problems in quantum coherence, quantum entanglement, optomechanically induced transparency, and quantum parameter estimation theory. He has published over 30 SCI-indexed papers in high-impact journals such as Physical Review Letters, Optics Express, and Applied Physics Letters. Of these, 9 are first-author papers and 15 list him as the first corresponding author. One of his papers was selected as an Editors’ Pick in Optics Letters, underscoring the quality and impact of his research. His investigations contribute critical insights into how quantum systems interact with their environments—an essential aspect of advancing Quantum Information technologies.
Impact and Influence
Prof. Jia-Xin Peng has established himself as a leading young scholar in the field of quantum physics in China. His work has been recognized by the Chinese Physical Society, which awarded his team the Most Influential Paper Award in 2019. He has also contributed to projects that have received major science prizes, such as the First Prize in the Shanghai Natural Science Award in 2020. As a reviewer for numerous high-ranking SCI journals, he influences the direction of current research in Quantum Information and related fields. His involvement in competitive talent programs like the "Morning Star" Talent Program positions him among China's next generation of scientific leaders.
Academic Cites
Prof. Peng’s work is frequently cited in both domestic and international research, reflecting its wide impact in the study of Quantum Information systems. His contributions to quantum entanglement, coherence, and measurement in optomechanical systems have been foundational for further research into quantum technologies and quantum computing. His rapidly growing citation record indicates his rising influence in theoretical and applied quantum physics.
Legacy and Future Contributions
Looking ahead, Prof. Jia-Xin Peng is poised to become a major contributor to the global advancement of Quantum Information science. His combination of deep theoretical insight, innovative experimentation, and commitment to academic excellence ensures that his work will have lasting significance. As he completes his PhD and transitions into more senior academic and research roles, his legacy is expected to include transformative advancements in quantum metrology, open quantum systems, and the development of high-precision quantum sensors. His mentorship under elite Chinese scholars and ongoing collaboration with leading international researchers will further amplify his impact on the field.
Quantum Information
Prof. Jia-Xin Peng’s academic achievements, high-impact publications, and cutting-edge research have made him a rising authority in Quantum Information. His studies on quantum entanglement and coherence in open systems address fundamental challenges in Quantum Information science. With over 30 publications and international recognition, his contributions are shaping the future of Quantum Information technologies and applications.
Notable Publication
Macroscopic Quantum Coherence and Quantum Complete Synchronization in Molecular Optomechanical System
Authors: Jia-Xin Peng, Chengsong Zhao, P. Djorwe, Kongkui B. Emale, Zhong-Wei Yu, Muhammad Asjad
Journal: Chaos, Solitons & Fractals
Date: August 2025
Highlights: Explores complete quantum synchronization in complex optomechanical molecular systems.
Parameter Estimation of Non-Hermitian Coupling Strength in Whispering-Gallery-Mode Microresonator
Authors: Rong Li, Zhen-Jie Tang, Jia-Xin Peng, Inaam Ul Haq, Li Dongke, Philippe Djorwe, Kongkui B. Emale
Journal: Physica Scripta
Date: November 2024
Highlights: Investigates estimation of non-Hermitian parameters in microresonator systems.
Enhancement of Quantum Effects via Periodic Modulation in a Cavity Magnomechanical System
Authors: Rong Li, Jia-Xin Peng, Xun-Li Feng, Muhammad Asjad
Journal: Physical Review Applied
Date: October 2024
Highlights: Shows how modulation enhances nonclassical effects in magnomechanical cavities.
Multiple Optomechanically Induced Transparency, Fano Resonance, and Group Delay in Hybrid Laguerre–Gaussian Cavity with Two Rovibrational Mirrors
Authors: Inaam Ul Haq, Jia-Xin Peng, M. Asjad, Naeem Akhtar, S.K. Singh, Dongke Li
Journal: The European Physical Journal Plus
Date: August 2024
Highlights: Investigates light–matter interaction in advanced optical cavities.
A Comprehensive Perspective for Single-Mode Gaussian Coherence
Authors: S.K. Singh, Atta ur Rahman, M. Mazaheri, Jia-Xin Peng
Journal: Physica Scripta
Date: June 2024
Highlights: Discusses theoretical framework for coherence in Gaussian states.
Estimation Theory of Photon-Magnon Coupling Strength in a Driven-Dissipative Double-Cavity-Magnon System
Authors: Jia-Xin Peng, Baiqiang Zhu, Weiping Zhang, Keye Zhang
Journal: Physical Review A
Date: February 2024
Highlights: Develops estimation techniques for hybrid photon-magnon systems.
Tunable Optical Response and Fast (Slow) Light in Optomechanical System with Phonon Pump
Authors: S.K. Singh, M. Parvez, T. Abbas, Jia-Xin Peng, M. Mazaheri, Muhammad Asjad
Journal: Physics Letters A
Date: August 2022
Highlights: Demonstrates control of light propagation using phonon-pumped optomechanical systems.